Optical property measurements of 235 mm large-scale Ti:Sapphire crystal

A Ti:Sapphire crystal with a diameter of 235 mm and a thickness of 72 mm was grown by heat exchange method

The emergence of ultra-intense and ultrashort laser system makes it possible to attain the extreme conditions in the laboratory like ultrastrong electric field, ultrahigh magnetic field, ultrahigh energy density, and gigantic light pressure, which are otherwise found only in the interior of a star or the edge of a black hole. It has largely promoted the development of a number of basic and frontier interdisciplinary subjects including laser science, attosecond optics, and plasma physics. Ultra-intense ultrashort laser applications have made some progress in studying antimatter, proton imaging, and driving the wake field electron acceleration.

At present, the main technology of constructing ultra-intense and ultrashort laser facility in the world is chirped pulse amplification technology(CPA). Ti sapphire crystal is usually chosen as terminal amplifier in the laser facility based on CPA technology. In order to further improve the peak power of laser pulse, a larger Ti:Sapphire crystal with high quality is required.

The research team led by Yin Hangfrom Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, used heat exchange method (HEM) to grow a Ti:Sapphire crystal with a diameter of 235 mm and a thickness of 72 mm.(the largest Ti:Sapphire crystal ever reported for a petawatt femtosecond-class laser system). Optical and laser properties were measured. The measurement results show that the crystal has good absorbability for 527 nm green light. Figure of merit (FOM) value is high. Internal quality of the crystal is better. And small signal gain value with high uniformity is obtained. The results have been published in Chinese Optics Letters, Vol 16, Issue 7, 2018 (H. Cao et al., Optical property measurements of 235 mm large-scale Ti:Sapphire crystal).

Huang Pei, a member of the research team, thinks that the study demonstrates that the large Ti:Sapphire crystal has excellent optical properties and laser performances, which can further support higher peak power of the laser pulse output.

Based on the above research results, the next step will be to increase the input energy and test the gain under large input energy.

COL封面故事:235 mm大型钛宝石晶体的光学性能测试

用热交换法生长的直径为235 mm、厚度为72 mm的钛宝石晶体



中科院上海光机所杭寅研究团队利用热交换法生长出了一块直径235 mm、厚度72 mm的大口径钛宝石晶体(已报道的用于超强超短激光系统中的最大口径的钛宝石晶体)并对其进行了光学性能以及激光性能的测试,结果表明该晶体对527 nm绿光具有良好的吸收性,品质因子(FOM)较高,晶体内部质量较好,并具有均匀性较好的小信号增益数值。该成果发表在Chinese Optics Letters 2018年第7期上(H. Cao et al., Optical property measurements of 235 mm large-scale Ti:Sapphire crystal)。